
Jersey Generic Low-poly 3D model
cgtrader
Quality Jersey that Looks Just Like Reality! This highly detailed, photorealistic 3D model is designed to help take your projects to a whole new level of realism. Originally created in Blender 2.80, the model is ready to use right out of the box, but if you're still using Blender 2.79 or an earlier version, you can simply append the files to get started. Take note that no post-processing was used on any of the preview images shown - this jersey truly stands out as is! Overview: * Includes full PBR texture maps at 4K resolution (specular gloss and metal-rough): + Base color/diffuse + Ambient occlusion + Glossiness/roughness + Metalness + Specular + Normal (DirectX + OpenGL) * Uses the Principled shader, specifically designed for Blender. * Boasts clean quad-tri based topology for maximum polygon efficiency. * Optimized and ready for subdivision to create an even more realistic texture. * Every object, texture, and material is named accurately, making it easy to navigate your project. All objects, textures, and materials are carefully organized to ensure maximum usability. There are no additional plugins needed to use this model - simply import and start working! Included in the blender file is a fully set up lighting rig with a HDRI backdrop to give you a complete starting point for your projects. Model Stats: * Polygons: 1,840 * Vertices: 1,835 This model comes with 6 different file formats, making it easily accessible and compatible with most software: *.blend *.fbx *.dae *.obj *.3ds *.stl Textures are included in PNG format at an impressive resolution of 4096x4096. Don't hesitate to reach out if you have any issues with the model or rig - we'll be happy to help fix any problems or make adjustments as needed.
With this file you will be able to print Jersey Generic Low-poly 3D model with your 3D printer. Click on the button and save the file on your computer to work, edit or customize your design. You can also find more 3D designs for printers on Jersey Generic Low-poly 3D model.